Research Indicates New Type of Immune Cell may be Important Protector Against Sepsis

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A previously unknown type of immune cell, a B cell that can produce the important growth factor GM-CSF, which stimulates many other immune cells has been discovered by investigators in the Massachusetts General Hospital (MGH) Center for Systems Biology.

Research Indicates New Type of Immune Cell may be Important Protector Against Sepsis

They also found that these novel cells may help protect against the overwhelming, life-threatening immune reaction known as sepsis.

"B cells are a family of white blood cells that secrete antibodies, and GM-CSF induces the production or activation of granulocytes and macrophages, other white blood cells that have specific roles in the immune system," says Filip Swirski, PhD, of the MGH Center for Systems Biology, senior author of the report that is to be published in the journal Science and is receiving advance release on the Science Express website. "Our findings are surprising not only because B cells were not previously known to produce GM-CSF in vivo but also because they indicate these novel cells initiate an important immune response."

As part of a separate investigation, Swirski and his team analyzed production of GM-CSF (granulocyte macrophage colony-stimulating factor) in tissue from several important organs. They were surprised to find that application of a bacterial molecule known to produce a powerful immune response induced GM-CSF production by what turned out to be a previously unknown family of B cells in the spleen. Because GM-CSF is known to activate white blood cells as part of the innate immune response - the body's first line defence against pathogens - the novel cells were named innate response activator (IRA) B cells.

The researchers went on to identify distinguishing characteristics of IRA-B cells, including gene expression patterns not seen in other B cells. They also determined that IRA-B cells derive from B cells known as B1a B cells. These IRA-B cell precursors originally reside in the peritoneal cavity but, after detecting the presence of invading bacteria, travel to the spleen or bone marrow where they differentiate into IRA-B cells that can either produce antibodies or release GM-CSF.

"While the IRA-B cell shares many attributes with other B cells, it is unique in its involvement with GM-CSF production," explains Clinton Robbins, PhD, co-lead author of the Science article. "Instead of the classic way that B cells recognize antigens, B1a B cells produce IRA-B cells after recognizing bacteria via a type of receptor known to be involved in the first steps of inflammation. The IRA-B cell, therefore, appears to be an early orchestrator of the immune system."

To test the potential role of IRA-B cells in sepsis, the researchers developed a mouse model in which B cells were totally unable to produce GM-CSF, preventing the generation of IRA-B cells. Those mice were unable to mount a defense against induced sepsis and died much earlier and in greater numbers than did control animals. Inflammatory markers in the infected mice lacking IRA-B cells suggested a defect in the ability to clear bacteria.

"We think that IRA-B cells sound a distress call when they deliver GM-CSF to the spleen, an organ where cells known to be important to the recognition and clearance of bacteria reside," explains Swirski, an immunologist who is an assistant professor of Radiology at Harvard Medical School. "Sepsis is an immunological conundrum. On the one hand it results from failure of the immune system to control infection. On the other hand, immune cells that do respond inflict damage and contribute to complications such as leakage of blood vessel walls and septic shock. Striking a balance between controlling infection and controlling inflammation is a major therapeutic goal, and we believe the IRA-B cell is a critical, previously unrecognized component in that balance."

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